IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0429319
(2012-03-24)
|
등록번호 |
US-8790191
(2014-07-29)
|
발명자
/ 주소 |
- Jertson, Marty R.
- Stokke, Ryan M.
|
출원인 / 주소 |
- Karsten Manufacturing Corporation
|
인용정보 |
피인용 횟수 :
6 인용 특허 :
152 |
초록
Embodiments of golf coupling mechanisms are presented herein. Other examples and related methods are also disclosed herein.
대표청구항
▼
1. A golf coupling mechanism for a golf club head and a golf club shaft, the golf coupling mechanism comprising: a shaft sleeve configured to be coupled to an end of the golf club shaft;wherein: the shaft sleeve comprises: a shaft bore configured to receive the end of the golf club shaft;a sleeve ax
1. A golf coupling mechanism for a golf club head and a golf club shaft, the golf coupling mechanism comprising: a shaft sleeve configured to be coupled to an end of the golf club shaft;wherein: the shaft sleeve comprises: a shaft bore configured to receive the end of the golf club shaft;a sleeve axis extending along a longitudinal centerline of the shaft sleeve, from a sleeve top end to a sleeve bottom end of the shaft sleeve;a sleeve outer wall centered about the sleeve axis;a first coupler protruding from the sleeve outer wall; anda second coupler protruding from the sleeve outer wall;the first coupler comprises a first arcuate surface curved throughout the first coupler;the second coupler comprises a second arcuate surface curved throughout the second coupler; andthe first and second arcuate surfaces are configured to restrict a rotation of the shaft sleeve relative to the golf club head. 2. The golf coupling mechanism of claim 1, further comprising: a shaft receiver of the golf club head configured to receive the shaft sleeve;wherein: the shaft sleeve comprises: a sleeve insertion portion comprising at least a portion of the sleeve outer wall and of the first and second couplers, the sleeve insertion portion configured to be inserted into the shaft receiver;the shaft receiver comprises: a receiver inner wall configured to bound at least the portion of the sleeve outer wall that is part of the sleeve insertion portion when the sleeve insertion portion is in the shaft receiver;a third coupler indented into the receiver inner wall; anda fourth coupler indented into the receiver inner wall;the third coupler comprises a third arcuate surface complementary with at least a portion of the first arcuate surface of the first coupler; andthe fourth coupler comprises a fourth arcuate surface complementary with at least a portion of the second arcuate surface of the second coupler. 3. The golf coupling mechanism of claim 2, further comprising: a first configuration where: the first coupler of the shaft sleeve is coupled to the third coupler of the shaft receiver; andthe second coupler of the shaft sleeve is coupled to the fourth coupler of the shaft receiver;wherein: in the first configuration: a majority of the first arcuate surface of the first coupler is seated against a majority of the third arcuate surface of the third coupler across a first contact area; anda majority of the second arcuate surface of the second coupler is seated against a majority of the fourth arcuate surface of the fourth coupler across a second contact area. 4. The golf coupling mechanism of claim 3, further comprising: a second configuration where: the first coupler of the shaft sleeve is coupled to the fourth coupler of the shaft receiver; andthe second coupler of the shaft sleeve is coupled to the third coupler of the shaft receiver;wherein: in the second configuration: a majority of the first arcuate surface of the first coupler is seated against a majority of the third arcuate surface of the third coupler; anda majority of the second arcuate surface of the second coupler is seated against a majority of the fourth arcuate surface of the fourth coupler;the first configuration comprises at least one of: a first lie angle between the shaft bore and the shaft receiver; ora first loft angle between the shaft bore and the shaft receiver;andthe second configuration comprises at least one of: a second lie angle between the shaft bore and the shaft receiver when the first configuration comprises the first lie angle; ora second loft angle between the shaft bore and the shaft receiver when the first configuration comprises the first loft angle. 5. The golf coupling mechanism of claim 4, further comprising: a third configuration; anda fourth configuration;wherein: the shaft sleeve further comprises: a fifth coupler protruding from the sleeve outer wall and comprising a fifth arcuate surface curved throughout the fifth coupler; anda sixth coupler protruding from the sleeve outer wall and comprising a sixth arcuate surface curved throughout the sixth coupler;the shaft receiver further comprises: a seventh coupler indented into the receiver inner wall and comprising a seventh arcuate surface; anda eighth coupler indented into the receiver inner wall and comprising an eighth arcuate surface;the first configuration comprises the first lie angle and the first loft angle, with: the fifth coupler of the shaft sleeve coupled to the seventh coupler of the shaft receiver; andthe sixth coupler of the shaft sleeve coupled to the eighth coupler of the shaft receiver;the second configuration comprises the second lie angle and the second loft angle, with: the fifth coupler of the shaft sleeve coupled to the eighth coupler of the shaft receiver; andthe sixth coupler of the shaft sleeve coupled to the seventh coupler of the shaft receiver;the third configuration comprises a third lie angle and a third loft angle, with: the first coupler of the shaft sleeve coupled to the eighth coupler of the shaft receiver;the second coupler of the shaft sleeve coupled to the seventh coupler of the shaft receiver;the fifth coupler of the shaft sleeve coupled to the third coupler of the shaft receiver; andthe sixth coupler of the shaft sleeve coupled to the fourth coupler of the shaft receiver;andthe fourth configuration comprises a fourth lie angle and a fourth loft angle, with: the first coupler of the shaft sleeve coupled to the seventh coupler of the shaft receiver;the second coupler of the shaft sleeve coupled to the eighth coupler of the shaft receiver;the fifth coupler of the shaft sleeve coupled to the fourth coupler of the shaft receiver; andthe sixth coupler of the shaft sleeve coupled to the third coupler of the shaft receiver. 6. The golf coupling mechanism of claim 5, wherein: the first lie angle comprises a lower lie angle relative to the second lie angle;the first loft angle comprises a first middle loft angle relative to the third and fourth loft angles;the second lie angle comprises a higher lie angle relative to the first lie angle;the second loft angle comprises a second middle loft angle relative to the third and fourth loft anglesthe third lie angle comprises a first middle lie angle relative to the first and second lie angles;the third loft angle comprises a lower loft angle relative to the fourth loft angle;the fourth lie angle comprises a second middle lie angle relative to the first and second lie angles; anthe fourth loft angle comprises a higher loft angle relative to the third loft angle. 7. The golf coupling mechanism of claim 5, wherein: the first and second loft angles are substantially similar to each other; andthe third and fourth lie angles are substantially similar to each other. 8. The golf coupling mechanism of claim 5, wherein: the first lie angle is approximately 0.2 degrees to approximately 4 degrees lower than the third lie angle;the second lie angle is approximately 0.2 degrees to approximately 4 degrees greater than the fourth lie angle;the third loft angle is approximately 0.2 degrees to approximately 4 degrees lower than the first loft angle; andthe fourth loft angle is approximately 0.2 degrees to approximately 4 degrees greater than the second loft angle. 9. The golf coupling mechanism of claim 3, wherein: when seated against each other, the majority of the first arcuate surface and the majority of the third arcuate surface exert opposing normal forces against each other across the first contact area; andwhen seated against each other, the majority of the second arcuate surface and the majority of the fourth arcuate surface exert opposing normal forces against each other across the second contact area. 10. The golf coupling mechanism of claim 2, wherein: the first and second couplers protrude from a top section of the sleeve outer wall towards the sleeve top end; andthe third and fourth couplers are indented into a top section of the receiver inner wall. 11. The golf coupling mechanism of claim 2, wherein: the first arcuate surface of the first coupler comprises: a first horizontal radius of curvature; anda first vertical tapering decreasing in thickness towards the sleeve bottom end;the second arcuate surface of the second coupler comprises: a second horizontal radius of curvature; anda second vertical tapering decreasing in thickness towards the sleeve bottom end;the third arcuate surface of the third coupler comprises: a third horizontal radius of curvature complementary with the first horizontal radius of curvature; anda third vertical tapering complementary with the first vertical tapering;andthe fourth arcuate surface of the fourth coupler comprises: a fourth horizontal radius of curvature complementary with the second horizontal radius of curvature; anda fourth vertical tapering complementary with the second vertical tapering. 12. The golf coupling mechanism of claim 11 wherein: the first vertical tapering comprises a first vertical radius of curvature;the second vertical tapering comprises a second vertical radius of curvature;the third vertical tapering comprises a third vertical radius of curvature complementary with the first vertical radius of curvature;the fourth vertical tapering comprises a fourth vertical radius of curvature complementary with the second vertical radius of curvature;each of the first, second, third, and fourth horizontal radii of curvature is of approximately 2.5 mm to approximately 5.7 mm; andeach of the first, second third, and fourth vertical radii of curvature is of approximately 10.1 mm to approximately 50.8 mm. 13. The golf coupling mechanism of claim 11, wherein: the first, second, third, and fourth vertical taperings are substantially linear. 14. The golf coupling mechanism of claim 2, wherein: when the shaft sleeve is secured in the shaft receiver, with the first coupler seated against the third coupler and the second coupler seated against the fourth coupler: a majority of a total surface of the first coupler is configured to impede a rotation of the shaft sleeve relative to the shaft receiver; anda majority of a total surface of the second coupler is configured to impede the rotation of the shaft sleeve relative to the shaft receiver. 15. The golf coupling mechanism of claim 2, further comprising: a securing fastener configured to secure the shaft sleeve to the shaft receiver;wherein the securing fastener is configured to pull the shaft sleeve towards a receiver bottom end of the shaft receiver to seat the first arcuate surface against the third arcuate surface and to seat the second arcuate surface against the fourth arcuate surface. 16. The golf coupling mechanism of claim 15, further comprising: a retainer element configured to restrict disengagement of the securing fastener from the shaft receiver when decoupled from the shaft sleeve,the retainer element comprising at least one of: a washer located within the shaft receiver, flexibly engaged around one or more threads of the securing fastener; ora threaded bore through which the retainer element enters the shaft receiver. 17. The golf coupling mechanism of claim 2, wherein: the shaft sleeve further comprises: a sleeve top portion at the sleeve top end and external to the shaft receiver when the sleeve insertion portion is in the shaft receiver; anda bottom end of the sleeve top portion is spaced away from a top end of the shaft receiver by the first and second couplers when the shaft sleeve is secured in the shaft receiver. 18. The golf coupling mechanism of claim 1, wherein: the first and second arcuate surfaces are devoid of an inflection point. 19. The golf coupling mechanism of claim 1, wherein: any horizontal line tangential to any point of a first total surface of the first coupler is non-tangential to any other point of the first total surface of the first coupler. 20. The golf coupling mechanism of claim 1, wherein: a total surface of the first coupler is curved throughout and in all directions. 21. The golf coupling mechanism of claim 1, wherein: a total surface area of the first coupler is edgeless with respect to any portion thereof within a first coupler perimeter bounding the total surface area of the first coupler. 22. The golf coupling mechanism of claim 1, wherein: the first arcuate surface comprises a first quadric surface comprising a portion of at least one of: a first paraboloid surface; ora first hyperboloid surface;andthe second arcuate surface comprises a second quadric surface comprising a portion of at least one of: a second paraboloid surface; ora second hyperboloid surface. 23. The golf coupling mechanism of claim 22, wherein: the first quadric surface comprises a portion of a first conical surface; andthe second quadric surface comprises a portion of a second conical surface. 24. The golf coupling mechanism of claim 1, wherein: the shaft bore is non-coaxial to the sleeve axis. 25. A method for providing a golf coupling mechanism, the method comprising: providing a shaft sleeve configured to be coupled to an end of a golf club shaft;wherein: providing the shaft sleeve comprises: providing a sleeve axis extending along a longitudinal centerline of the shaft sleeve, from a sleeve top end to a sleeve bottom end of the shaft sleeve;providing a sleeve outer wall centered about the sleeve axis;providing a first coupler protruding from the sleeve outer wall; andproviding a second coupler protruding from the sleeve outer wall;providing the first coupler comprises: providing a first arcuate surface curved throughout the first coupler;providing the second coupler comprises: providing a second arcuate surface curved throughout the second coupler; andthe first and second arcuate surfaces are configured to restrict a rotation of the shaft sleeve relative to a golf club head. 26. The method of claim 25, further comprising: providing a shaft receiver of the golf club head configured to receive the shaft sleeve;wherein: providing the shaft sleeve comprises: providing a sleeve insertion portion comprising at least a portion of the sleeve outer wall and of the first and second couplers, the sleeve insertion portion configured to be inserted into the shaft receiver;providing the shaft receiver comprises: providing a receiver inner wall configured to bound the sleeve outer wall when the sleeve insertion portion is in the shaft receiver;providing a third coupler indented into the receiver inner wall; andproviding a fourth coupler indented into the receiver inner wall;providing the third coupler comprises: providing a third arcuate surface complementary with at least a portion of the first arcuate surface of the first coupler;andproviding the fourth coupler comprises: providing a fourth arcuate surface complementary with at least a portion of the second arcuate surface of the second coupler.
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